Data Sheet EDC1-11-S 1nm High Power TOP LED Outline and Internal Circuit (Unit : mm) Features Chip Material : InGaAsP Chip Dimension : 1um * 1um Number of Chips : 1pce Peak Wavelength : 1nm typ. Lead Frame Die : Ceramics Lens : Silicone Resin Application
Absolute Maximum Ratings (Tc= C) Item Symbol Ratings Unit Power Dissipation PD 1 mw Forward Current IF 6 ma Pulse Forward Current IFP ma Reverse Voltage VR V Thermal Resistance Rthja 1 K/W Junction Temperature Tj 1 C Operating Temperature Topr - ~ +8 C Storage Temperature Tstg - ~ +1 C Soldering Temperature TSOL C Pulse Forward Current condition : Duty 1% and Pulse Width=1us. Soldering condition : Soldering condition must be completed with seconds at C. Optical and Electrical Characteristics (Tc= C) Parameter Symbol Min Typ Max Unit Test Condition Forward Voltage VF 1. 1.6 IF=mA V VFP 1.6. IFP=A Total Radiated Power Radiant Intensity PO IE IF=mA mw 9 IFP=A IF=mA mw/sr 67 IFP=A Peak Wavelength λp 1 11 nm IF=mA Half Width λ 8 nm IF=mA Viewing Half Angle θ1/ ±6 deg. IF=1mA Rise Time tr 1 ns IF=mA Fall Time tf 8 ns IF=mA Radiated Power is measured by G87-8. Radiant Intensity is measured by ANDO Optical Multi Meter AQ1 & AQ7.
Typical Characteristic Curves Forward Current - Forward Voltage (ta= C, tw=1µs, Duty=1%) 1 Relative Radiant Intensity - Forward Current (ta= C, tw=1µs, Duty=1%) Forward Current (ma) 1 1 1 1 1.1 ma Standard 1...8 1. 1.6 Forward Voltage (V)..1 1 1 1 1 Forward Current (ma) Forward Current - Pulse Duration Allowable Forward Current - Ambient Temperature 8 Rthja=1K/W Forward Current Ifp [ma] 1 9 8 7 1 6 1kHz 1 1 1 1 1 1 1 1 6 Duration tw [µs] 1kHz 1Hz 1Hz Allowable Forward Current(mA) 7 6 1 6 8 1
Forward Voltage (V) 1.7 1.6 1. 1. 1. 1. 1.1 1..9.8 Forward Voltage - Ambient Temperture If=mA 1 9 8 7 6 1 9 8 7 6 Relative Radiant Intensity - Ambient Temperature If=mA.7 1 6 7 8 1 6 7 8 11 19 Peak Wavelength - Ambient Temperature If=mA Peak Wavelength (nm) 18 17 16 1 1 1 1 11 1 1 6 7 8
Relative Spectral Emission Radiation Characteristics 1..9.8.7.6.... (ta= C) 1..9.8.7.6.... ±6. 9 1 11 Wavelength (nm) 1-9 -6-6 9 Angle (deg.) Radiation Characteristics - - - -1 1 ±6 Angle (deg.) -7-6 - 6 7-8 8-9 1.9.8.7.6.........6.7.8.9 1 9
Wrapping Moisture barrier bag aluminum laminated film with a desiccant to keep out the moisture absorption during the transportation and storage. SMD LED storage and handling precautions Storage Conditions before Opening a Moisture-Barrier Aluminum Bag Before opening a moisture-barrier aluminum bag, please store it at <ºC, <6%RH. Please note that the maximum shelf life is 1 months under these conditions. Storage Conditions after Opening a Moisture-Barrier Aluminum Bag After opening a moisture-barrier aluminum bag, store the aluminum bag and silica gel in a desiccator. After opening the bag, please solder the LEDs within 7 hours in a room with - ºC, <%RH. Please put any unused, remaining LEDs and silica gel back in the same aluminum bag and then vacuum-seal the bag. It is recommended to keep the re-sealed bag in a desiccator at <%RH. The 7-hour- long floor life does not include the time while LEDs are stored in the moisture-barrier aluminum bag. However, we strongly recommend to solder the LEDs as soon as possible after opening the aluminum bag Notes about Re-sealing a Moisture-Barrier Aluminum Bag When vacuum-sealing an opened aluminum bag, if you find the moisture-indicator of the silica gel has changed to pink from blue (indicating a relative humidity of % or more), please do not use the unused LEDs, the aluminum bag, or the silica gel. Notes about Opening a Re-sealed Moisture-Barrier Aluminum Bag When opening a vacuumed and re-sealed aluminum bag in order to use the remaining LEDs stored in the bag, if you find that the moisture-indicator of the silica has changed to pink, please do not use the LEDs.
Disclaimer Product specifications and data shown in this product catalog are subject to change without notice for the purposes of improving product performance, reliability, design, or otherwise. Product data and parameters in this catalog are typical values based on reasonably up-to-date measurements. Product data and parameters may vary by user application and over time. Products shown in this catalog are intended to be used for general electronic equipment. Products are not guaranteed for applications where product malfunction or failure may cause personal injury or death, including but not limited to life-supporting / saving devices, medical devices, safety devices, airplanes, aerospace equipment, automobiles, traffic control systems, and nuclear reactor control systems. *Effective July 16, Ushio Epitex Inc. is now 17.6